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Ultrahigh Sensitive Carbon‐Based Conducting Rubbers for Flexible and Wearable Human–Machine Intelligence Sensing

Arya Ajeev, Bharathkumar H. Javaregowda, Ashik Ali, Mrudul Modak, Shreya Patil, Saumyakanta Khatua, Marimuthu Ramadoss, Premkumar Kothavade, Arulraj Arulkashmir

2020Advanced Materials Technologies36 citationsDOI

Abstract

Abstract The wearable strain sensors with multifunctional applications can fuel the rapid development of human–machine intelligence for various sectors like healthcare, soft robotics, and Internet of Things applications. However, achieving the low‐cost and mass production of wearable sensors with ultra‐high performance remains challenging. Herein, a simple, cost‐effective, and scalable methodology to fabricate the flexible and highly sensitive strain sensors using carbon black and latex rubbers (LR) is presented. The LR‐based strain sensor demonstrates excellent flexibility, fast response (≈600 ms), ultra‐high sensitivity (maximum gauge factor of 1.2 × 10 4 at 250% strain), and long‐term stability over 1000 cycles. The LR‐based strain sensors are sensitive to monitor subtle human motions such as heart pulse rate and voice recognition along with high‐strain human joint operations. Additionally, the sensing mechanism of LR bands is investigated by surface topographies and electromechanical response under various strained/unstrained conditions. Further, a smart glove‐based sensor module made of LR strain bands with an Arduino reader for the human–machine intelligence device for non‐verbal communication in military applications is demonstrated.

Topics & Concepts

Gauge factorWearable computerFlexibility (engineering)Strain gaugeMaterials scienceScalabilityComputer scienceWearable technologyHuman–machine systemNanotechnologyArtificial intelligenceEmbedded systemFabricationPathologyComposite materialDatabaseMedicineStatisticsMathematicsAlternative medicineAdvanced Sensor and Energy Harvesting MaterialsMuscle activation and electromyography studiesConducting polymers and applications
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